Abstract
Evolution equations of a laser-excited direct gap two-band semiconductor in the transient stage have been derived by using the first principle Liouville-von Neumann equation and the statistical projection operator method. To be more general, the photon field is described in a quantum mechanical manner. Quantum effects of the electron-photon coupoling as well as charge carrier Coulomb screening and dissipation are involved. The evolution of the time dependent coherent photon state is investigated. It results in additionally evolution equations. Numerical solutions of these systems are cast out for realistic parameters and are compared with previous results.
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